TY - JOUR
T1 - Alternative Oxidase Transcription Factors AOD2 and AOD5 of <em>Neurospora crassa</em> Control the Expression of Genes Involved in Energy Production and Metabolism
JF - G3: Genes|Genomes|Genetics
SP - 449
LP - 466
DO - 10.1534/g3.116.035402
VL - 7
IS - 2
AU - Qi, Zhigang
AU - Smith, Kristina M.
AU - Bredeweg, Erin L.
AU - Bosnjak, Natasa
AU - Freitag, Michael
AU - Nargang, Frank E.
Y1 - 2017/02/01
UR - http://www.g3journal.org/content/7/2/449.abstract
N2 - In Neurospora crassa, blocking the function of the standard mitochondrial electron transport chain results in the induction of an alternative oxidase (AOX). AOX transfers electrons directly from ubiquinol to molecular oxygen. AOX serves as a model of retrograde regulation since it is encoded by a nuclear gene that is regulated in response to signals from mitochondria. The N. crassa transcription factors AOD2 and AOD5 are necessary for the expression of the AOX gene. To gain insight into the mechanism by which these factors function, and to determine if they have roles in the expression of additional genes in N. crassa, we constructed strains expressing only tagged versions of the proteins. Cell fractionation experiments showed that both proteins are localized to the nucleus under both AOX inducing and noninducing conditions. Furthermore, chromatin immunoprecipitation and high throughput sequencing (ChIP-seq) analysis revealed that the proteins are bound to the promoter region of the AOX gene under both conditions. ChIP-seq also showed that the transcription factors bind to the upstream regions of a number of genes that are involved in energy production and metabolism. Dependence on AOD2 and AOD5 for the expression of several of these genes was verified by quantitative PCR. The majority of ChIP-seq peaks observed were enriched for both AOD2 and AOD5. However, we also observed occasional sites where one factor appeared to bind preferentially. The most striking of these was a conserved sequence that bound large amounts of AOD2 but little AOD5. This sequence was found within a 310 bp repeat unit that occurs at several locations in the genome.
ER -